Page 256 -
P. 256
MEMS Fabrication 3-211
Sugiyama, S., Kawakata, K., Abe, M., Funabashi, H., and Igarashi, I. (1987) “High-Resolution Silicon
Pressure Imager with CMOS Processing Circuits,” in 4th International Conference on Solid-State
Sensors and Actuators (Transducers ’87), Tokyo, pp. 444–47.
Sugiyama, S., Suzuki, T., Kawahata, K., Shimaoka, K., Takigawa, M., and Igarashi, I. (1986) “Micro-
Diaphragm Pressure Sensor,” in Technical Digest: IEEE International Electron Devices Meeting
(IEDM ’86), pp. 184–87.
Sundaram, K.B., and Chang, H.-W. (1993) “Electrochemical Etching of Silicon by Hydrazine,”
J. Electrochem. Soc. 140, pp. 1592–97.
Suzuki, K., Shimoyama, I., and Miura, H. (1994) “Insect-Model Based Microrobot with Elastic Hinges,”
J. Microelectromech. Syst. 3, pp. 4–9.
Tabata, O., Asahi, R., Funabashi, H., Shimaoka, K., and Sugiyama, S. (1992) “Anisotropic Etching of
Silicon in TMAH Solutions,” Sensor. Actuator. A A34, pp. 51–57.
Tabata, O., Asahi, R., and Sugiyama, S. (1990) “Anisotropic Etching with Quarternary Ammonium
Hydroxide Solutions,” in Technical Digest: 9th Sensor Symposium, Tokyo, pp. 15–18.
Tabata, O., Asahi, R., and Sugiyama, S. (1995) “pH-Controlled TMAH Etchants for Silicon
Micromachining,” in 8th International Conference on Solid-State Sensors and Actuators (Transducers
’95), Stockholm, pp. 83–86.
Takebe, T., Yamamoto, T., Fujii, M., and Kobayashi, K. (1993) “Fundamental Selective Etching
Characteristics of HF H O H O Mixtures for GaAs,” J. Electrochem. Soc. 140, pp. 1169–80.
2
2
2
Takeshima, N., Gabriel, K.J., Ozaki, M., Takahashi, J., Horiguchi, H., and Fujita, H. (1991) “Electrostatic
Parallelogram Actuators,” in 6th International Conference on Solid-State Sensors and Actuators
(Transducers ’91), San Francisco, pp. 63–66.
Tan, T.Y., Foll, H., and Hu, S.M. (1981) “On the Diamond-Cubic to Hexagonal Phase Transformation in
Silicon,” Phil. Mag. A 44, pp. 127–40.
Tang, W.C., Nguyen, T.-C.H., and Howe, R.T. (1989a) “Laterally Driven Polysilicon Resonant
Microstructures,” in Proceedings: IEEE Micro Electro Mechanical Systems (MEMS ’89), Salt Lake
City, pp. 53–59.
Tang, W.C., Nguyen, T.H., and Howe, R.T. (1989b) “Laterally Driven Polysilicon Resonant
Microstructures,” Sensor. Actuator. 20, pp. 25–32.
Tang, W.C.K. (1990) Electrostatic Comb Drive for Resonant Sensor and Actuator Applications, Ph.D. the-
sis, University of California, Berkeley.
Tenney, A.S., and Ghezzo, M. (1973) “Etch Rates of Doped Oxides in Solutions of Buffered HF,” J.
Electrochem. Soc. 120, pp. 1091–95.
Texas Instruments, “Thermal Character Print Head,” Texas Instruments, Austin, TX.
Thaysen, J., Boisen, A., Hansen, O., and Bouwstra, S. (2000) “Atomic Force Microscopy Probe with
Piezoresistive Read-Out and a Highly Symmetrical Wheatstone Bridge Arrangement,” Sensor.
Actuator., A 83, pp. 47–53.
Theunissen, M.J., Apples, J.A., and Verkuylen, W.H.C.G. (1970) “Applications of Preferential Electrochemical
Etching of Silicon to Semiconductor Device Technology,” J. Electrochem. Soc. 117, pp. 959–65.
Theunissen, M.J., Apples, J.A., and Verkuylen, W.H.C.G. (1972) “Etch Channel Formation during Anodic
Dissolution of n-Type Silicon in Aqueous Hydrofluoric Acid,” J. Electrochem. Soc. 119, pp. 351–60.
Thundat, T., Bottomley, L.A., Meller, S., Velander, W.H., and Tassell, R.V. (2001) “Microcantilever
Immunosensors,” in Immunoassays: Methods and Protocols, Ghindilis, A.L., Pavlov, A.R., and
Atanajov, P.B., eds., Humana Press, Totowa, NJ.
Thundat, T., Chen, G.Y., Warmack, R.J., Allison, D.P., and Wachter, E.A., “Vapor Detection Using
Resonating Microcantilevers,” Anal. Chem. 67, pp. 519–21.
Thundat, T., Oden, P.I., and Warmack, R.J. (1997) “Microcantilever Sensors,”Microscale Thermophys. Eng.
1089–3954/97, pp. 1:185–99.
Thundat, T., Wachter, E.A., Sharp, S.L., and Warmack, R.J. (1995) “Detection of Mercury Vapor Using
Resonating Cantilevers,” Appl. Phys. Lett. 66, pp. 1695–97.
Timoshenko, S.P., and Woinowsky-Krieger, S. (1959) Theory of Plates and Shells, McGraw-Hill, New York.
© 2006 by Taylor & Francis Group, LLC
